S
Satyandra K. Gupta
Researcher at University of Southern California
Publications - 429
Citations - 8955
Satyandra K. Gupta is an academic researcher from University of Southern California. The author has contributed to research in topics: Robot & Design for manufacturability. The author has an hindex of 46, co-authored 429 publications receiving 7717 citations. Previous affiliations of Satyandra K. Gupta include Amada Co & Indian Institutes of Technology.
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A Survey of Shape Similarity Assessment Algorithms for Product Design and Manufacturing Applications
TL;DR: This survey consists of a description of the desired properties of shape signatures, a scheme for classifying different types ofshape signatures, and descriptions of representative algorithms for computing and comparing shape signatures.
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A survey of CAD model simplification techniques for physics-based simulation applications
TL;DR: The purpose of this paper is to compile a list of the techniques that are relevant for physics-based simulations problems and to characterize them based on their attributes, and to present the necessary background information in the CAD model representation to assist the new readers.
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Automated manufacturability analysis: a survey
TL;DR: A survey of state-of-the-art automated manufacturability analysis can be found in this paper, where the authors present the historical context in which this area has emerged and outline characteristics to compare and classify various systems.
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A survey of snake-inspired robot designs
TL;DR: This review reports different types of snake-inspired robot designs and categorizes them based on their main characteristics to assist in familiarizing a newcomer to the field with the existing designs and their distinguishing features.
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Sustainability Characterization for Additive Manufacturing.
TL;DR: A methodology for sustainability characterization of AM is proposed to serve as a resource for the community to benchmark AM processes for sustainability and help close the gaps for comparing AM performance to traditional manufacturing methods.